Beverage Bottle with Accessible Station for Portable Electronic Device

ABSTRACT

A beverage bottle for a portable electronic device, includes a hand-held container comprising a surrounding wall and having a fluid compartment formed within the surrounding wall, and an accessible station integrated with the hand-held container, wherein the accessible station has a window cavity for accommodating the portable electronic device therein so as to allow the portable electronic device through the window cavity. Therefore, the portable electronic device is carried and protected by the container and is accessible through the accessible station.

CROSS REFERENCE OF RELATED APPLICATION

This is a Continuation-In-Part application that claims the benefit ofpriority under 35U.S.C.§119 to a non-provisional application,application Ser. No. 14/611,274, filed Feb. 1, 2015.

NOTICE OF COPYRIGHT

A portion of the disclosure of this patent document contains materialwhich is subject to copyright protection. The copyright owner has noobjection to any reproduction by anyone of the patent disclosure, as itappears in the United States Patent and Trademark Office patent files orrecords, but otherwise reserves all copyright rights whatsoever.

BACKGROUND OF THE PRESENT INVENTION

1. Field of Invention

The present invention relates to a water bottle, and more particular toa beverage bottle integrated with an accessible station not onlyproviding a window cavity for accommodating an object having anappropriate size, such as a portable electronic device, with protectionfeature but also allowing the user to quickly access the portableelectronic device in the accessible station.

2. Description of Related Arts

Water is essential for the human body to function for maintaining thehealth and integrity of every cell in the body, wherein water plays amain role in the body to perform virtually every metabolic process.Especially for exercisers, the goal of drinking water before, during,and post-workout is to prevent dehydration and maintain performance.Therefore, almost all exercisers would like to carry their own waterbottles to ensure the water quality for personal health and hygienepurpose.

More and more people are willing to go to a fitness center because thereare different training-related equipments to strength different parts ofthe body. At the mean time, they must carry their personal items, suchas keys, wallet, mobile phone, and water bottle, during workout. Forconvenience, they will carry a bag to store all the personal items. Inaddition, most of the training-related equipments provide a holder tohold the water container, such that people can drink water as they needduring workout. However, some people may feel anxious that they cannothear the phone ring when the phone is stored in the bag as an example.As a result, they will place the phone on any surface of thetraining-related equipment.

Cyclists, as another example, would like to carry a water bottle and anaccessory, such as GPS or mobile phone during riding. Therefore, abottle holder becomes a standard feature for most bicycles to hold thewater bottle. However, the cyclists must purchase an added-on holder tohold the accessory onto the bicycle.

The common concern for the exercisers is that the mobile phone or otherelectronic devices cannot be well protected. Especially for the smartphone, the touch screen thereof can be easily cracked by simply droppingon the floor. Therefore, the phone should be well-protected and easyaccessible during workout.

With the improvement of living standards, outdoor activities have becomevery popular leisure. In addition, with the development of electronictechnology and mobile devices, such as mobile phones, the mobile phoneshave become a necessity in people's lives, so people used to carry theirmobile phones everywhere.

During outdoor activities, people can play the mobile phones to greatlyincrease the interest during travelling, such as to use a mobile phoneto play music, videos and so on. However, it is difficult to place themobile phone in a stable position during outdoor activities. It is aburden for the user to hold a mobile device on by one hand which greatlyreduces the enjoyment during activities. If the user places his/hermobile devices directly on the ground, the mobile devices will beinevitably getting dirty. In other words, while the users are watchingthe video on his/her mobile phones, it is convenient to have asupporting frame to support the electronic equipment, so as to make theusers feel more comfortable.

There are some supporting frames specifically designed for electronicmobile device in the current market. However, it is a hassle for theusers to carry these supporting frames. In addition, these supportingframes are usually small in size and seldom to use in daily life, sothey are usually stored in place while they are not in use, and theusers always forget where they store these supporting frames. Therefore,while the users want to use the supporting frames, they need to spendtimes to find the supporting frames.

SUMMARY OF THE PRESENT INVENTION

The invention is advantageous in that it provides a beverage bottleintegrated with an accessible station not only providing a window cavityfor accommodating an object having an appropriate size, such as aportable electronic device, keys and/or a wallet, with protectionfeature but also allowing the user to quickly access the portableelectronic device in the accessible station.

Another advantage of the invention is to a beverage bottle with anaccessible station, wherein the accessible station comprises asheltering screen which is movable to selectively enclose the windowcavity, such that the user is able to actuate the sheltering screen toaccess the portable electronic device.

Another advantage of the invention is to a beverage bottle with anaccessible station, wherein the portable electronic device is supportedat the center portion of the beverage bottle to enhance the protectionof the portable electronic device.

Another advantage of the invention is to a beverage bottle with anaccessible station, which further provides a power station forelectrically charging the portable electronic device in the windowcavity.

Another advantage of the invention is to a beverage bottle with anaccessible station, wherein the beverage bottle can be held by anyexisting bottle holder without altering its original structure.Therefore, the user is able to carry the beverage bottle with theportable electronic device at the same time.

Additional advantages and features of the invention will become apparentfrom the description which follows, and may be realized by means of theinstrumentalities and combinations particular point out in the appendedclaims.

According to the present invention, the foregoing and other objects andadvantages are attained by a beverage bottle for an object, such as aportable electronic device, which comprises:

a hand-held container comprising a surrounding wall and having a fluidcompartment formed within the surrounding wall; and

an accessible station integrated with the hand-held container, whereinthe accessible station has a window cavity for accommodating the objecttherein.

In accordance with another aspect of the invention, the presentinvention comprises a method of protecting and carrying an object, suchas a portable electronic device, by a beverage bottle, which comprisesthe following steps.

(1) Integrate an accessible station with a hand-held container which hasa fluid compartment formed within a surrounding wall of the hand-heldcontainer.

(2) Accommodate the object in a window cavity of the accessible stationto protect the portable electronic device therein.

In accordance with another aspect of the invention, the presentinvention comprises a beverage bottle, which comprises:

a hand-held container comprising a surrounding wall and having a fluidcompartment formed within the surrounding wall; and

a utility base coupled with the hand-held container, wherein saidutility base comprises a base casing detachably coupled at a bottomportion of said hand-held container and an audio module supported in thebase casing for generating an audio output.

Another advantage of the present invention a beverage bottle with anaccessible station, wherein the beverage bottle comprises a fluidcompartment adapted to store water or other items, and the beveragebottle not only can provide a stable support for the portable electronicdevice, but also can reduce the burden on the user and provide acomfortable using experience.

Another advantage of the present invention a beverage bottle with anaccessible station, wherein the beverage bottle is able to be used as adrinking water or beverage storage device, and the beverage bottle has atwo-layer structure, so as to have a better thermal insulation effect tothe water or beverage.

Another advantage of the present invention a beverage bottle with anaccessible station, wherein the portable electronic device can besupported by the beverage bottle at a predetermined inclination angle,so that the beverage bottle not only can improve the attachmentstability of the portable electronic device, but also improves theuser's viewing experience.

Another advantage of the present invention a beverage bottle with anaccessible station, wherein the structure of the beverage bottle issimple, not easy to be damaged, and easy to carry, so as to provide theuser to carry drinking water.

Another advantage of the present invention a beverage bottle with anaccessible station, wherein the beverage bottle can be used a waterdrinking device, and the outer wall of the hand-held container comprisesa first mounting hole, which is adapted to allow the user to observe thewater level inside the fluid compartment.

Another advantage of the present invention a beverage bottle with anaccessible station, wherein the beverage bottle can support at least oneportable electronic device, and at the same time, the beverage bottlecan provide a heat diffusion function to the portable electronic device.

Another advantage of the present invention a beverage bottle with anaccessible station, wherein the beverage bottle can support the portableelectronic device, and at the same time, the beverage bottle furthercomprises a utility base adapted to install portable audio devices,rechargeable power supply, and so on.

According to the present invention, the foregoing and other objects andadvantages are attained by a beverage bottle for an object, such as aportable electronic device, which comprises:

a hand-held container having a fluid compartment; and

an accessible station comprising a supporting frame formed on thehand-held container to stably support at least one portable electronicdevice.

Preferably, the supporting frame is inwardly extended from an outer wallof the hand-held container to form a mounting groove, wherein theportable electronic device is adapted to insert into the mountinggroove.

Preferably, the supporting frame comprises a bottom wall, a firstsidewall, and a second sidewall, wherein the first sidewall and thesecond sidewall are integrally extended from the outer wall of the bodyunit to the bottom wall of the supporting frame, so that the mountinggroove is formed between the bottom wall, the first sidewall, and thesecond sidewall.

Preferably, the hand-held container comprises at least one supportingleg outwardly extended from the sidewall of the hand-held container, soas to stable supported on a plane.

Preferably, the hand-held container is a cylindrical, and the mountinggroove is transversely or horizontally extended from the sidewall of thehand-held container.

Preferably, the hand-held container comprises at least two frontsupporting leg and at least two rear supporting legs, wherein the frontsupporting legs are outwardly extended from the sidewall of the frontend of the hand-held container, and the rear supporting legs areoutwardly extended from the sidewall of the rear end of the hand-heldcontainer, and each of the outer ends of the supporting legs are in thesame plane.

Preferably, the bottom wall of the supporting frame is parallel to theplane where outer ends of the supporting legs are located.

Preferably, the first sidewall is inclinedly extended from the outerwall of the hand-held container to the bottom wall of the supportingframe, so that the portable electronic device can be inclinedlysupported inside the mounting groove.

Preferably, the hand-held container comprises a body unit and a spoutunit, wherein the body unit defines a fluid compartment, and the bodyunit comprises a top fluid opening adapted to allow the fluidcompartment communicating with outside. The spout unit is detachablycoupled with the top fluid opening of the body unit to open and closethe top fluid opening.

Preferably, the spout unit comprises a spout member and a movable cap,wherein the spout member is provided on the top fluid opening to open orclose the top fluid opening. The spout member comprises a mouth piece tocommunicate with the top fluid opening, and the movable cap is connectedwith the spout member by a hinge to perform a opened position and aclosed position, so that while the movable cap is in the position state,the mouth piece is covered by the movable cap, and while the movable capis in the opened position, the mouth piece is uncovered by the movablecap.

Preferably, the front supporting legs are spacedly and outwardlyextended from two ends of the cap, and when the cap is in the closedposition, the outer end of the front supporting legs and the outer endof rear supporting legs are in the same plane.

Preferably, the cap comprises a snap edge integrally extended from theinner wall of the cap, wherein the snap edge is located at a positioncorresponding to the mouth piece, so as to effectively seal the mouthpiece while the cap is in the closed position.

Preferably, the supporting frame is inwardly extended from the outerwall of the body unit, wherein the first sidewall and the secondsidewall are extended from the outer wall of the body unit to the bottomwall of the supporting frame.

Preferably, the body unit comprises an inner wall and an outer wall,wherein fluid compartment is formed by the inner wall, and the outerwall is surrounding outside the inner wall.

Preferably, the supporting frame is extended from the outer wall of thebody unit to the inner wall of the body unit to form a mounting hole onthe outer wall, and then to form a mounting slot on the inner wall.

Preferably, the inner wall is made of a transparent materialpreparation, and the outer wall is made of an opaque material, so theusers can view the fluid compartment of the inner wall through themounting hole.

Preferably, the outer wall comprises a plurality of water level holelaterally extended along the sidewall of the outer wall, so that thefluid compartment can be seen through by the water level hole, so thatthe users can know the volume of the liquid inside the fluid compartmentby the water level hole.

Preferably, one end of the water level hole is extended to the mountinghole to communicate with the mounting hole.

Preferably, the inner wall and the outer wall are respectively made ofby an injection molding.

Alternatively, the supporting frame comprises a connecting plugoutwardly extended from the body unit, wherein the connecting plug isadapted to insert into the connecting holes of any of the portableelectronic device to fix the portable electronic device on the bodyunit.

Alternatively, the supporting frame comprises a retaining arm extendedfrom the spout unit to allow the portable electronic device beingmounted thereon.

Alternatively, the supporting frame comprises a bottom wall and a firstsidewall, wherein the first sidewall and the bottom wall arerespectively and inwardly extended from an outer wall of the body unit,and the mounting groove is formed between the bottom wall and the firstsidewall. The hand-held container further comprises at least one frontand rear supporting leg outwardly extended from the body unit, whereinthe front supporting legs are outwardly extended from the sidewall ofthe front end of the hand-held container, and the rear supporting legsare outwardly extended from the sidewall of the rear end of thehand-held container, and each of the outer ends of the supporting legsare in the same plane. The bottom wall of the supporting frame isupwardly and outwardly inclined arranged with respect to a plane wherethe supporting legs are placed on, wherein the first sidewall isperpendicular to the bottom wall of the supporting frame.

Still further objects and advantages will become apparent from aconsideration of the ensuing description and drawings.

These and other objectives, features, and advantages of the presentinvention will become apparent from the following detailed description,the accompanying drawings, and the appended claims.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a beverage bottle with an accessiblestation for a portable electronic device according to a preferredembodiment of the present invention, illustrating the enclosed positionof the sheltering screen.

FIG. 2 is an exploded perspective view of the beverage bottle with theaccessible station according to the above preferred embodiment of thepresent invention.

FIG. 3 is a side view of the beverage bottle with the accessible stationaccording to the above preferred embodiment of the present invention,illustrating the portable electronic device being charged by the utilitybase.

FIG. 4 is a perspective view of the beverage bottle with the accessiblestation according to the above preferred embodiment of the presentinvention, illustrating the accessible position of the shelteringscreen.

FIG. 5 illustrates a first modification of the sheltering screen of theaccessible station according to the above preferred embodiment of thepresent invention.

FIG. 6 illustrates the flat transparent screen of the first modificationthe sheltering screen of the accessible station according to the abovepreferred embodiment of the present invention.

FIG. 7 illustrates a second modification of the sheltering screen of theaccessible station according to the above preferred embodiment of thepresent invention.

FIG. 8 illustrates the flat transparent screen of the secondmodification of the sheltering screen of the accessible stationaccording to the above preferred embodiment of the present invention.

FIG. 9 illustrates a third modification of the sheltering screen of theaccessible station according to the above preferred embodiment of thepresent invention.

FIG. 10 is a modification of the utility base of the beverage bottleaccording to the above preferred embodiment of the present invention.

FIG. 11 is a perspective view of a beverage bottle with an accessiblestation for a portable electronic device according to a second preferredembodiment of the present invention.

FIG. 12 is a perspective view of the beverage bottle with the accessiblestation according to the above second preferred embodiment of thepresent invention, illustrating the portable electronic device beingmounted on the mounting groove.

FIG. 13A to FIG. 13C are side view of three alternative modes of thesupporting frame according to the above second preferred embodiment ofthe present invention.

FIG. 14 is an exploded view of the beverage bottle with the accessiblestation according to the above second preferred embodiment of thepresent invention.

FIG. 15 illustrates a first alternative mode of the beverage bottle withthe accessible station according to the above second preferredembodiment of the present invention.

FIG. 16 illustrates a second alternative mode of the beverage bottlewith the accessible station according to the above second preferredembodiment of the present invention.

FIG. 17 illustrates a third alternative mode of the beverage bottle withthe accessible station according to the above second preferredembodiment of the present invention.

FIG. 18 is a perspective view of the beverage bottle with the accessiblestation according to the above second preferred embodiment of thepresent invention, illustrating the hand-held container beingtransversely placed on a plane.

FIG. 19 is a perspective view of a beverage bottle with an accessiblestation for a portable electronic device according to a third preferredembodiment of the present invention.

FIG. 20A and FIG. 20B illustrate a portable electronic device beingmounted on the supporting frame according to the above third preferredembodiment of the present invention.

FIG. 21 is a perspective view of a beverage bottle with an accessiblestation for a portable electronic device according to a fourth preferredembodiment of the present invention.

FIG. 22 is a perspective view of a beverage bottle with an accessiblestation for a portable electronic device according to a fifth preferredembodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

The following description is disclosed to enable any person skilled inthe art to make and use the present invention. Preferred embodiments areprovided in the following description only as examples and modificationswill be apparent to those skilled in the art. The general principlesdefined in the following description would be applied to otherembodiments, alternatives, modifications, equivalents, and applicationswithout departing from the spirit and scope of the present invention.

Referring to FIGS. 1 to 3 of the drawings, a beverage bottle for anobject having an appropriate size, such as a key, a wallet and/or aportable electronic device D, according to a preferred embodiment of thepresent invention is illustrated, wherein the beverage bottle comprisesa hand-held container 10, an accessible station 20 integrated with thehand-held container 10, and a utility base 30. The portable electronicdevice D, such as a mobile phone, as an example to illustrate in thepreferred embodiment to show how to protect the object in the beveragebottle. Accordingly, the accessible station 20 serves as an accessiblephone station when the mobile phone is held therein.

As shown in FIGS. 1 to 3, the hand-held container 10 comprises asurrounding wall 11 and having a fluid compartment 111 formed within thesurrounding wall 11, and a spout unit 12 detachably coupled with thesurrounding wall 11 to communicate with the fluid compartment 111thereof.

Accordingly, the held-held container 10 is made of safe-to-reuse andnon-toxic material, such as BPA-free plastic. The surrounding wall 11generally has a tubular configuration and defines top and bottom edges,wherein fluid compartment 11 is formed within the surrounding wall 11with a top fluid opening, such that fluid can be filled into the fluidcompartment 111 through the top fluid opening.

The spout unit 12 is detachably coupled at the top edge of thesurrounding wall 11, wherein the spout unit 12 comprises spout member121 detachably coupled with the surrounding wall 11, a mouth piece 122upwardly extended from the spout member 121 for communicating with thefluid compartment 11, a cap 123 pivotally coupled with the spout member121 for selectively covering the mouth piece 121, and a carrying unit124, such as a carrying ring, extended from the spout member 121 forhanging the held-held container 10 at a fixture. Accordingly, theutility base 30 is detachably coupled at the bottom edge of thesurrounding wall 11, such that the surrounding wall 11 is locatedbetween the spout unit 12 and the utility base 30.

The accessible station 20 has a window cavity 21 formed with thesurrounding wall 11 of the hand-held container 10 for accommodating theportable electronic device D in the window cavity 21. Accordingly, thewindow cavity 21 is indented on the surrounding wall 11 of the hand-heldcontainer 10 to define a common compartment wall 101 between the windowcavity 21 and the fluid compartment 111. In particular, the windowcavity 21 is formed with the surrounding wall 11 between the top andbottom edges thereof, such that a window opening of the window cavity 21faces in a radial direction of the surrounding wall 11. In other words,the fluid compartment 111 and the window cavity 21 are two individualcavities that the fluid in the fluid compartment 111 cannot enter intothe window cavity 21.

According to the preferred embodiment, the accessible station 20comprises a sheltering screen 22 movably coupled at the surrounding wall11 to selectively enclose the window cavity 21 so as to protect theportable electronic device D therein.

The sheltering screen 22 is formed in a tubular shape having a diameterslightly larger than a diameter of the surrounding wall 11, wherein thesheltering screen 22 is coaxially and rotatably coupled with thesurrounding wall 11 at a position that a top edge of the shelteringscreen 22 is aligned with the top edge of the surrounding wall 11 whilea bottom edge of the sheltering screen 22 is aligned with the top bottomof the surrounding wall 11. Furthermore, the sheltering screen 22 islocked by the spout unit 12 and the utility base 30 when the top andbottom edges of the surrounding wall 11 are detachably engaged with thespout unit 12 and the utility base 30 respectively, so as to prevent anysliding movement of the sheltering screen 22 along the surrounding wall11. It is worth mentioning that a guiding groove is formed at each ofthe spout unit 12 and the utility base 30, wherein the top and bottomedges of the sheltering screen 22 are engaged with the guiding groove atthe spout unit 12 and the utility base 30 respectively, so as to enablethe sheltering screen 22 to be rotated around the surrounding wall 11.

The sheltering screen 22 has a screen opening 220 formed between the topand bottom edges thereof, wherein a size and shape of the screen opening220 matches with the size and shape of the window opening of the windowcavity 21. Therefore, the sheltering screen 22 is adapted to be rotatedbetween an accessible position and an enclosed position. In theaccessible position, the sheltering screen 22 is rotated around thesurrounding wall 11 to align the screen opening 220 with the windowcavity 21, such that the user is able to access the portable electronicdevice D through the screen opening 220. In the enclosed position, thesheltering screen 22 is rotated around the surrounding wall 11 tomisalign the screen opening 220 with the window cavity 21, such that theportable electronic device D is enclosed within the window cavity 21 andprotected by the sheltering screen 22.

Preferably, the sheltering screen 22 is made of transparent and rigidmaterial, such that the portable electronic device D can be seen throughthe sheltering screen 22 in the enclosed position. The curvature of thesheltering screen 22 matches with the curvature of the surrounding wall11, such that the sheltering screen 22 further serves as a convex lensfor enlarging the screen of the portable electronic device D. Therefore,the user is able to quickly access the mobile phone as an example byrotating the sheltering screen 22 in the accessible position. Afterusing the mobile phone, the user is able to quickly close the windowcavity 21 by rotating the sheltering screen 22 back to the enclosedposition. It is worth mentioning that the portable electronic device Dis received at a center portion of the surrounding wall 11 and withinthe window cavity 21, the portable electronic device D will be locatedat the center of mass of the hand-held container 10 so as to enhance theprotection of the portable electronic device D by the surrounding wall11 and the sheltering screen 22. In addition, when the fluid is filledin the fluid compartment 111, the fluid will also become excellent shockabsorption medium for absorbing shock when the hand-held container 10 isdropped on the floor.

In order to securely support the portable electronic device D within thewindow cavity 21, the accessible station 20 further comprises aplurality of holder units 23 spacedly formed in the window cavity 21 fordetachably holding the portable electronic device D in position.Preferably, the holder units 23 are edge holders spacedly formed at twoside edges of the window cavity 21, i.e. the common compartment wall101, for detachably holding two side edges of the portable electronicdevice D. It is appreciated that when the mobile phone is supported inthe window cavity 21 via the holder units 23, a touch screen of themobile phone is facing toward the window opening of the window cavity21. In other words, the user is able to access the touch screen of themobile phone by rotating the sheltering screen 22 in the accessibleposition without taking the mobile phone out of the window cavity 21.

It is worth mentioning that the diameter size of the hand-held container10 is the same as the diameter size of the existing water bottle, suchthat the beverage container of the present invention can be held by anyexisting bottle holder.

As shown in FIGS. 1 to 3, the utility base 30 comprises a base casing 31detachably coupled at a bottom portion of the hand-held container 10 anda power source unit 32 supported in the base casing 31 for electricallyconnecting to the portable electronic device D within the window cavity21. Accordingly, the base casing 31 is detachably coupled at the bottomedge of the surrounding wall 11 to lock up the sheltering screen 22 thatthe sheltering screen 22 is only allowed to be rotated around thesurrounding wall 11. The base casing 31 has two quick releasing clippingarms detachably coupled with the bottom edge of the surrounding wall 11.

The power source unit 32 comprises a rechargeable battery 321 disposedin the base casing 31 and a charging terminal 322 upwardly andoperatively extended from the rechargeable battery 321 through a bottomwall of the window cavity 21 for electrically connecting with a chargingport of the portable electronic device D. Therefore, the portableelectronic device D can be protected within the window cavity 21 and canbe charged by the power source unit 32 at the same time, so as toprevent the portable electronic device D being out of battery duringworkout. Preferably, the charging terminal 322 of the power source unit32 is a USB interface.

The power source unit 32 further comprises a recharging port 323provided at the base casing 31 for charging the rechargeable battery 321via a power charging cable to a power outlet. The power source unit 32further comprises a power indicator 324 provided at the base casing 31for indicating the power status of the rechargeable battery 321, such ascharging status and low-power warning status.

Accordingly, the power indicator 324 is embodied as a power displayingelement electrically connected with the rechargeable battery 321 of thepower source unit 32 for displaying the electrical power stored in therechargeable battery 321, as shown in FIG. 10. It is worth mentioningthat the power indicator 324 may be a power indicating lamp or a powerdisplay screen capable of displaying the electrical power stored in therechargeable battery 321 or the percentage ratio of the reserved chargeto the full charge of the rechargeable battery 321. It is apparent tothese skilled in the art that the power indicator 324 may be any otherdisplaying members capable of displaying the electrical power stored inthe rechargeable battery 321.

It is appreciated that a replaceable battery or the like can be receivedin the base casing 31 instead of the rechargeable battery 321 forcharging the portable electronic device D. Preferably, the rechargeablebattery 321 has a predetermined weight applied at the bottom portion ofthe beverage container to stabilize the beverage container when thebeverage container is supported on a surface in an upright manner.

Furthermore, the utility base 30 comprises an audio module 33 providedat the outer surface of the base casing 31 for operatively linking to anaudio inlet of the portable electronic device D in the window cavity 21.Therefore, the user is able to listen to the music or answer the phonevia an audio cable connecting to the audio module 33.

As shown in FIG. 10, the utility base 30 is modified that the audiomodule 33 is supported in the base casing 321, wherein the audio module33 comprises at least a speaker 331, an audio input 332 provided in anouter side of the base casing 31 and/or a signal receiving module 333being capable of receiving wireless audio signal, wherein the audioinput 332 and the signal receiving module 333 are electrically connectedwith the speaker 331. More preferably, the audio module 33 furthercomprises an audio interface 334 provided in the base casing 31, whereinthe audio interface 334 is extended to the accessible station 20, suchthat the portable electronic device D may be electrically connected tothe audio interface 334. The audio interface 334 is electricallyconnected with the speaker 331 such that the portable electronic deviceD is able to provide audio signal for the audio module 33 via the audiointerface 334. It is appreciate that each of the audio input 332 and theaudio interface 334 may be a RCA analog audio interface, a S/PDIF audiointerface, a Digital a Coaxial audio interface, an optical fiber audiointerface, a balance simulator audio interface such as XLR audiointerface or combination thereof. Each of the audio input 332 and theaudio interface 334 may be any other interface capable of achieving theaudio signal input/output function, for example USB interface.Preferably, the audio module 33 comprises at least an adjusting andcontrolling button for achieving the control function of adjustingoutput volume, selecting play a playlist and/power control.

As shown in FIG. 3, the utility base 30 further comprises a lightingunit 34 disposed at the bottom of the base casing 31 and electricallylinked to the rechargeable battery 321. The lighting unit 34, such as aflashlight unit, comprises a plurality of light sources, such as LEDs ona circuit board, supported on a bottom wall of the base casing 31 andelectrically linked to the power source unit 32. Preferably, thelighting unit 34 is electrically linked to the rechargeable battery 321so as to provide electrical power to the lighting unit 34. When thelight sources are activated for generating illumination light, the lightcan pass through the bottom wall of the base casing 31. It is worthmentioning that the bottom wall of the base casing 31 is transparent.

The utility base 30 further comprises a control panel 35 provided at thebase casing 31 for selectively controlling operations of the lightingunit 34 and the portable electronic device D. Accordingly, the controlpanel 35 comprises a light operating switch 351 operatively linked tothe lighting unit 34 to control the lighting unit 34 in an on-and-offmanner. The control panel 35 further comprises a device control switch352 operatively linked to the portable electronic device D when theportable electronic device D is operatively connected to the chargingterminal 322. For example, the device control switch 352 can selectivelycontrol the audio volume and song selection of the portable electronicdevice D. Preferably, the power indicator 324 is incorporated with thecontrol panel 35 that an integrated circuitry is formed to control thepower source unit 32, the lighting unit 34, and the portable electronicdevice D.

FIG. 5 illustrates a first modification of the beverage container,wherein the sheltering screen 22A is pivotally moved with respect to thesurrounding wall 11 to selectively enclose the window cavity 21. Inother words, the sheltering screen 22A is locked by the spout unit 12and the utility base 30 to prevent a rotational movement of thesheltering screen 22A with respect to the surrounding wall 11.

In particular, the sheltering screen 22A comprises a screen door 221Ahaving a pivotal side edge 222A pivotally provided along a first sideedge of the window cavity 21, and an opposed lockable side edge 223Areleasably locked at an opposed second side edge of the window cavity21. Therefore, the screen door 221A can be pivotally and sidewardlyopened to expose the window cavity 21 for the user to access theportable electronic device D therein.

Accordingly, the pivotal side edge 222A of the screen door 221A ispivotally coupled at one side edge of the screen opening 220 whichaligns with the first side edge of the window cavity 21. The lockableside edge 223A releasably locked at an opposed side edge of the screenopening 220 which aligns with the second side edge of the window cavity21. Since the sheltering screen 22A cannot be rotated around thesurrounding wall 11, the screen door 221A will always align with thewindow cavity 21.

As shown in FIG. 5, the holder units 23 are spacedly provided at aninner side of the sheltering screen 22A for detachably holding theportable electronic device D in position. In particular, the holderunits 23 are provided at the inner side of the screen door 221A, suchthat when the screen door 221A is moved to open the window screen 21,the portable electronic device D is automatically removed out of thewindow screen 21, and when the screen door 221A is moved to close thewindow screen 21, the portable electronic device D is automaticallyreceived in the window screen 21.

Accordingly, the screen door 221A can be configured in a curved shape tomatch the curvature of the screen door 221A with the curvature of thesurrounding wall 11, such that when the screen door 221A is pivotallymoved to close the window cavity 21, the surrounding wall 11 and thescreen door 221A form a circular cross section.

Alternatively, the screen door 221B can be a flat transparent screenmade of touch response material, such as tempered glass, and is arrangedfor overlapping on the touch screen of the portable electronic device D,as shown in FIG. 6. Therefore, the user is able to directly access thetouch screen of the portable electronic device D without opening thescreen door 221B.

It is appreciated that the screen door 221B can be directly coupled atthe surrounding wall 11. In other words, the pivotal side edge 222B ofthe screen door 221B is pivotally coupled at the surrounding wall 11along the first side edge of the window cavity 21 while the lockableside edge 223B releasably locked at the surrounding wall 11 along thesecond side edge of the window cavity 21. Therefore, the shelteringscreen 22B is formed as the screen door 221B without encircling thesurrounding wall 11, so as to reduce the material cost of the shelteringscreen 22B, as shown in FIG. 6.

FIG. 7 illustrates a second modification of the beverage container,wherein the sheltering screen 22C comprises a screen door 221C having apivotal bottom edge 222C pivotally provided along a bottom edge of thewindow cavity 21, and an opposed lockable top edge 223C releasablylocked at a top edge of the window cavity 21. Therefore, the screen door221C can be pivotally and downwardly opened to expose the window cavity21 for the user to access the portable electronic device D therein.

Accordingly, the pivotal side edge 222C of the screen door 221C ispivotally coupled at a bottom edge of the screen opening 220 whichaligns with the bottom edge of the window cavity 21. The lockable sideedge 223C releasably locked at a top edge of the screen opening 220which aligns with the top edge of the window cavity 21. Since thesheltering screen 22C cannot be rotated around the surrounding wall 11,the screen door 221C will always align with the window cavity 21.

Likewise, the holder units 23 are spacedly provided at an inner side ofthe sheltering screen 22C for detachably holding the portable electronicdevice D in position. In particular, the holder units 23 are provided atthe inner side of the screen door 221C, such that when the screen door221C is moved to open the window screen 21, the portable electronicdevice D is automatically removed out of the window screen 21, and whenthe screen door 221C is moved to close the window screen 21, theportable electronic device D is automatically received in the windowscreen 21.

Accordingly, the screen door 221C can be configured in a curved shape tomatch the curvature of the screen door 221C with the curvature of thesurrounding wall 11, such that when the screen door 221C is pivotallymoved to close the window cavity 21, the surrounding wall 11 and thescreen door 221C form a circular cross section.

Alternatively, the screen door 221D can be a flat transparent screenmade of touch response material, such as tempered glass, and is arrangedfor overlapping on the touch screen of the portable electronic device D,as shown in FIG. 8. Therefore, the user is able to directly access thetouch screen of the portable electronic device D without opening thescreen door 221D.

It is appreciated that the screen door 221D can be directly coupled atthe surrounding wall 11. In other words, the pivotal bottom edge 222D ofthe screen door 221D is pivotally coupled at the surrounding wall 11along the bottom edge of the window cavity 21 while the lockable topedge 223D releasably locked at the surrounding wall 11 along the topedge of the window cavity 21. Therefore, the sheltering screen 22D isformed as the screen door 22D without encircling the surrounding wall11, so as to reduce the material cost of the sheltering screen 22D.

FIG. 9 illustrates an alternative mode of the accessible station 20Ewhich comprises a sheltering screen 22E protruded from the surroundingwall 11E at a position that a portion of the surrounding wall 11E formsa common compartment wall between the window cavity 21E and the fluidcompartment 111E, such that the window cavity 21E is formed between thesheltering screen 22E and the surrounding wall 11E.

Accordingly, the window cavity 21E has an elongated bottom opening toalign with the bottom edge of the surrounding wall 11E, such that theportable electronic device D is slidably received in the window cavity21E through the bottom opening. In addition, the utility base 30E isdetachably coupled at the bottom edge of the surrounding wall 11E tocover the bottom opening so as to enclose the window cavity 21E. Inorder to remove the portable electronic device D from the window cavity21E, the utility base 30E can be detached from the surrounding wall 11E,such that the portable electronic device D can be slid out of the windowcavity 21E through the bottom opening thereof. Preferably, a cushioninglayer is provided at a ceiling of the window cavity 21E to prevent anyunwanted movement of the portable electronic device D within the windowcavity 21E. Preferably, the sheltering screen 22E is a flat transparentscreen made of touch response material and is arranged for overlappingon the touch screen of the portable electronic device D. Therefore, theuser is able to directly access the touch screen of the portableelectronic device D without taking the portable electronic device D outof the window cavity 21E.

Accordingly, the present invention further provides a method ofprotecting and carrying a portable electronic device D by the beveragebottle, which comprises the following steps.

(1) Integrate the accessible station 20 with the hand-held container 10to form the fluid compartment 111 and the window cavity 21.

(2) Accommodate the portable electronic device D in the window cavity 21of the accessible station 21 to protect the portable electronic device Dtherein.

(3) Move the sheltering screen 22 to selectively enclose the portableelectronic device D in the window cavity 21.

In the step (3), the sheltering screen 22 can be moved by rotating thesheltering screen 22 around the surrounding wall 1 to open up the windowcavity 21 when the screen opening 22 is aligned therewith. The screendoor 221A, 221B of the sheltering screen 22A, 22B can be pivotallyopened sideward to open up the window cavity 21. The screen door 221C,221D of the sheltering screen 22C, 22D can be pivotally opened downwardto open up the window cavity 21. Alternatively, the touch screen of theportable electronic device D can be directly accessed through thesheltering screen 22 without taking the portable electronic device D outof the window cavity 21.

The present invention provides a beverage bottle for storing andsupporting a mobile device. The mobile device can be a mobile phone,tablet PCs, MP3 players, MP4 players and other handheld electronicdevices, wherein the handheld electronic devices are usually direct heldby the users, so and the mobile devices usually have no built-insupporting assemble, such that they may not be stably stand on a flatsurface. According to the present invention, the beverage bottle canprovide to support the mobile devices standing on the flat surface, andallow the display screen of the mobile device being shown to the usersat a predetermined angle, so that the users can comfortably watch thedisplay screen of the mobile devices.

The beverage bottle comprises a hand-held container 10′ having a fluidcompartment 111′ to provide storing space for the beverage bottle. Inaddition, the beverage bottle further comprises a supporting frame 21′formed within the hand-held container 10′ and adapted to stably supportthe at least one mobile device.

The fluid compartment 111′ is adapted to store beverage for the user todrink. In most situations, the fluid compartment 111′ is adapted tostore water, such that hand-held container 10′ is used to be a water cupduring our daily life.

The fluid compartment 111′ is formed within the hand-held container 10′,wherein the beverage bottle has both of the functions of storing andsupporting so as to solve the problems mentioned in the background. Whenthe users are doing the outdoor activities, the water cups are essentialproducts, so the users have no additional burden to carry the beveragebottle with water storing function as well as that the beverage bottlecan be a stable supporting frame for the mobile device, so as to greatlyimprove the user's leisure experience. Therefore, the beverage bottle ofthe present invention is a multiple function container, so as to greatlyenhance the product's value.

It is worth mentioning that the beverage bottle may also be used forstoring the mobile device accessory, such as a mobile device headset,rechargeable batteries and other devices. These mobile deviceaccessories usually stored into the luggage and hard to find, and thesemobile device accessories are easily damaged by any external forceapplied to the luggage. Therefore, if these mobile device accessoriesare stored into the beverage bottle, it is not only convenience for theuser to find the mobile device accessories, but also can protect thesemobile device accessories being damaged.

Referring to FIG. 11 to FIG. 12 of the drawings, a beverage bottleaccording to a second preferred embodiment of the present invention isillustrated, wherein the beverage bottle comprises a hand-held container10′.

The hand-held container 10′ comprises a body unit 11′ and a spout unit12′, wherein the body unit 11′ defines a fluid compartment 111′ adaptedto store water or other items, and the body unit 11′ comprises a topfluid opening 112′ adapted to allow the fluid compartment 111′communicating with outside. The spout unit 12′ is detachably coupledwith the top fluid opening 112′ of the body unit 11′ and is adapted toopen and close the top fluid opening 112′. In other words, the spoutunit 12′ is adapted to open and close the fluid compartment 111′ of thebody unit 11′.

Accordingly, the hand-held container 10′ further comprises an accessiblestation 20′, wherein the accessible station 20′ comprises a supportingframe 21′ having a mounting groove 210′ to stably support a portableelectronic device D, so as to allow a display screen of the portableelectronic device D being displayed at a predetermined angle. Themounting groove 210′ is inwardly indented on an outer wall of thehand-held container 10′.

Preferably, the supporting frame 21′ is formed on the body unit 11′,wherein the mounting groove 210′ is inwardly indented on the outersurface of the body unit 11′, and an edge portion of the portableelectronic device D can be inserted into the mounting groove 210′, suchthat the portable electronic device D can be securely supported at astable position by the supporting frame 21′.

Referring to FIG. 13A to FIG. 13C of the drawings, the supporting frame21′ comprises a bottom wall 211′, a first sidewall 212′, and a secondsidewall 213′, wherein the first sidewall 212′ and the second sidewall213′ are integrally extended from the outer wall of the body unit 11′ tothe bottom wall 211′ of the supporting frame 21′, so that the mountinggroove 210′ is formed among the bottom wall 211′, the first sidewall212′, and the second sidewall 213′. When the edge portion of theportable electronic device D is inserted into the mounting groove 210′,the bottom wall 211′ of the supporting frame 21′ is adapted to support abottom wall of the portable electronic device D, and two sidewalls ofthe portable electronic device D are supported by the first and secondsidewall 212′, 213′ of the supporting frame 21′. In other words, thebottom wall and two sidewalls of the portable electronic device D can bestably supported by the supporting frame 21′, so the portable electronicdevice D cannot be easily removed. It is worth mentioning that a widthof the mounting groove 210′, i.e. a distance between the first sidewall212′ and the second sidewall 213′, is larger than a thickness of theportable electronic device D.

As shown in FIG. 13A to FIG. 13C, three alternative modes of thesupporting frame 21′ are provided according to the above preferredembodiment of the present invention, and the supporting frame 21′ isincluded but not limited to the following embodiment.

As shown in FIG. 13A, the first sidewall 212′ and the second sidewall213′ are parallel with each other, and the first sidewall 212′ and thesecond sidewall 213′ are both perpendicular with the bottom wall 211′.That is to say, the first sidewall 212′ and the second sidewall 213′ areperpendicularly extended from the bottom wall 211′. In other words, theangle between the first sidewall 212′ and the bottom wall 211′ is aright angle. In addition, the thickness of the portable electronicdevice D is slightly smaller than the distance of the first sidewall212′ and the second sidewall 213′, such that the portable electronicdevice D can be kept almost perpendicularly between the first sidewall212′ and the second sidewall 213′. At the same time, the portableelectronic device D is contacted with the bottom wall 211′, the firstsidewall 212′ and the second sidewall 213′ of the supporting frame 21′,so as to securely support the portable electronic device D. Whenthickness of the portable electronic device D is smaller than thedistance between the first sidewall 212′ and the second sidewall 212′,the portable electronic device D may be obliquely inserted into themounting groove 210′, such that the inclination angle of the portableelectronic device D will be increased with respect to the verticalorientation thereof. When the portable electronic device D is contactedwith the bottom wall 211′, the first sidewall 212′ and the secondsidewall 213′ of the supporting wall 21′ in a line contact. As a result,the portable electronic device D can be stably supported by thesupporting frame 21′.

As shown in FIG. 13B and FIG. 13C, the first sidewall 212′ and thesecond sidewall 213′ are not parallelly arranged, such that the firstsidewall 212′ is not perpendicular to the bottom wall 211′, and thesecond sidewall 213′ is perpendicular to the bottom wall 211′. In otherwords, the first sidewall 212′ is inclinedly extended from the outerwall of the body unit 21′ to the bottom wall 211′, and the secondsidewall 213′ is perpendicularly extended from the outer wall of thebody unit 21′ to the bottom wall 211′. As shown in FIG. 13B, the anglebetween the first sidewall 212′ and the bottom wall 211′ is an obtuseangle, wherein the first sidewall 212′ enlarges a contacting area tocontact with the edge portion of the portable electronic device D. Asshown in 13C, the angle between the first sidewall 212′ and the bottomwall 211′ is an acute angle, wherein the first sidewall 212′ can lock upthe edge portion of the portable electronic device D.

The portable electronic device D can be obliquely inserted into themounting groove 210′ along the first sidewall 212′ is obliquely insertedinto the mounting slots 210′, and the portable electronic device D iscontacted with the first sidewall 211′ in a surface contact, andcontacted with bottom wall 211′ and the second sidewall 213′ in a linecontact, so that the portable electronic device D can be stablysupported within the supporting frame 21′, so as to minimize theunwanted displacement between the portable electronic device D and themounting groove 210′.

Furthermore, since the inclination angle of the portable electronicdevice D can be determined by the inclination angle of the firstsidewall 212′, the best inclination angle of the portable electronicdevice D can be analyzed by the statistics. In other words, the bestinclination angle of the portable electronic device D is the mostcomfortable watching angle for the users while they are watching thescreen of the portable electronic device D.

It is worth mentioning that the beverage bottle needs to be placed on aplane while the portable electronic device D is supported within thesupporting frame 21′, so that the mounting groove 210′ is horizontallyarranged. Preferably, the bottle wall 211′ of the supporting frame 21′is parallel to the plane where the beverage bottle is placed, so as tomake the portable electronic device D parallel to the plane.

The hand-held container 10′ further comprises at least one leg support24′, wherein the leg support 24′ is outwardly extended from thehand-held container 10′, and the leg support 24′ is adapted to supportthe portable electronic device D, so that the hand-held container 10′can be stably placed on a surface. It is worth mentioning that thesupporting leg 24′ is provided at the hand-held container 10′ and islocated at an opposite side of the supporting frame 21′.

It is worth mentioning that when the hand-held container 10′ onlycomprises one leg support 24′, wherein at least two points of outer wallof the hand-held container 10′ and the leg support 24′ are in the sameplane, and the two points of the hand-held container 10′ and the legsupport 24′ are formed a triangle, so as to make the hand-held container10′ being placed in the same plane. In other words, the hand-heldcontainer 10′ is securely supported by the two points of the hand-heldcontainer 10′ and the leg support 24′, so that the two points of thehand-held container 10′ have the same functions as the leg support 24′.

Preferably, the outer sidewall of the hand-held container 10′ is curvedsurface, and the hand-held container 10′ is cylindrical. The shape ofthe hand-held container 10′ is configured to have the same shape of theexisting water bottle. A longitudinal length of the hand-held container10′ is larger than the lateral length thereof. In order to increase thelength of the mounting groove 210′ and provide a large mounting spacefor the portable electronic device D, the mounting groove 210′ ispreferable longitudinally extended from the sidewall of the hand-heldcontainer 10′. In other words, the hand-held container 10′ ishorizontally placed, and then the edge portion of the portableelectronic device D is inserted into the mounting groove 210′.

Preferably, the leg support 24′ is outwardly extended from the sidewallof the hand-held container 10′ along the cross-section of the hand-heldcontainer 10′, such that the hand-held container 10′ placed in atransverse direction can be stably supported on a flat surface, so as toavoid the scrolling occurred on the hand-held container 10′.

Preferably, the leg support 24′ comprises at least one front supportingleg 241′ and at least one rear supporting leg 242′, wherein the frontsupporting leg 241′ and the rear supporting leg 242′ are located at twoends of the sidewall of the hand-held container 10′. The frontsupporting leg 241′ is integrally extended from the spout unit 12′ andthe rear supporting leg 242′ is integrally extended from the body unit11′. Each of the outer ends of the front and rear supporting legs 241′,242′ are in the same plane. The bottom wall 211′ of the supporting frame21′ are parallel to the plane where each of the leg supports 24′ arelocated, so that when the hand-held container 10′ is placed on the planeand is stably supported by the leg supports 24′, the bottom wall 211′ ofthe supporting frame 21′ is parallel to the plane where the hand-heldcontainer 10′ is placed. In other words, the portable electronic deviceD mounted within the mounting groove 210′ is parallel to the plane wherethe hand-held container 10′ is placed. Preferably, the front supportinglegs 241′ are formed at a free edge of the spout unit 12′.

As shown in FIGS. 11, 12, and 13, the leg support 24′ comprises two rearsupporting legs 242′, wherein the two rear supporting leg 242′ arespacedly extended from the rear end of the sidewalls of the hand-heldcontainer 10′ to align with the bottom wall thereof. In addition, whenthe hand-held container 10′ is placed in a plane in an upright manner,the two rear supporting legs 242′ are contacted with the plane, so as toprevent the hand-held container 10′ being scrolling by subjecting to asmaller force. The leg support 24′ comprises two front supporting leg241′, wherein the two rear supporting leg 242′ are spacedly extendedfrom the front end of the sidewalls of the hand-held container 10′. Inaddition, when the hand-held container 10′ is placed in a plane in atransverse direction, the two front supporting legs 241′ are contactedwith the plane.

Preferably, both of the outer ends of the two rear supporting leg 242′and the two front supporting legs 241′ are in the same plane.

It is worth mentioning that the leg support 24′ is adapted to allow thebeverage bottle being stably placed in a plane without the risk ofrolling, so that any kinds of structure which is able to achieve thisfunction can be used as the leg support 24′. For example, as shown inFIG. 15, the bottom sidewall of the hand-held container 10′ is notformed in an arc surface, and the bottom sidewall of the hand-heldcontainer 10′ is a flat platform, so that the hand-held container 10′can be stably placed on a plane through the flat platform.

Referring to FIG. 14 of the drawings, the spout unit 12′ comprises aspout member 121′ and a movable cap 123′. The spout member 121′ isprovided on the top fluid opening 112′ adapted to open or close the topfluid opening 112′. The spout member 121′ comprises a mouth piece 122′to communicate with the top fluid opening 112′, and also communicatewith the fluid compartment 111′, so that the user may drink the waterwithin the fluid compartment 111′ through the mouth piece 122′. The areaof the mouth piece 122′ is smaller than that of the top fluid opening112′, so as to prevent the water inside the fluid compartment 111′ beingaccidently spilled out from the mouth piece 122′. When the users want tofill out the water into the fluid compartment 111′, it is moreconvenient to fill out the water into the fluid compartment 111′ throughthe top fluid opening 122′, rather than the mouth piece 122′. Themovable cap 123′ is provided to open and close the mouth piece 122′.

Preferably, the spout member 121′ and the body unit 11′ are connectedwith each other by a threaded connection, wherein the inner side of thespout member 121′ comprises a thread member located at a position closeto the top fluid opening 112′, and the top fluid opening 112′ comprisesa cooperating thread member, which is adapted to match with the threadmember of the spout member 121′.

The movable cap 123′ is movably hinged to the spout member 121′, suchthat the movable cap 123′ can be operated between an opened position anda closed position, when the movable cap 123′ is in the opened position,the mouth piece 122′ is opened, and when the movable cap 123′ is in theclosed position, the mouth piece 122′ is closed.

Accordingly, two of the front supporting legs 241′ are spacedly andoutwardly extended from the outer end of the movable cap 123′. When themovable cap 123′ is in the closed position, the front supporting legs241′ on the movable cap 123′ are adapted to corporate with the othersupporting legs 242′ on the body unit 11′ to stably support thehand-held container 10′. In addition, the two front supporting legs 241′on the movable cap 123′ also can be corporated with a portion of thehand-held container 10′ to stably supported thereof.

Furthermore, the leg support 24′ not only can provide supportingfunction for the beverage bottle, but also can be used as a lever toopen the movable cap 123′, so as to provide the user successfully openthe movable cap 123′.

Preferably, the front supporting legs 241′ are spacedly and outwardlyextended from two ends of the movable cap 123′, and when the movable cap123′ is in the closed position, the outer end of the front supportinglegs 241′ and the outer end of rear supporting legs 242′ are in the sameplane.

Preferably, the movable cap 123′ comprises a snap edge 1231′ integrallyextended from the inner wall of the cap 1231′, wherein the snap edge1231′ is located at a position corresponding to the mouth piece 122′, soas to make the movable cap 123′ in the closed position. The edge of themouth piece 122′ is sealedly engaged with the snap edge 1231′, so as toeffectively seal the mouth piece 122′, facilitates the movable cap 123′held in the closed position, and prevent the cap 123′ being accidentallyopened.

Preferably, the snap edge 1231′ of the movable cap 123′ is made of aplastic having deformability, such as polyethylene, and the edge of themouth piece 122′ is made of a plastic having a certain hardness, such aspolypropylene, so as to improve the sealing ability between the snapedge 1231′ and the mouth piece 122′.

Furthermore, the spout unit 12′ comprises a sealing ring 124′ arrangedbetween the spout member 121′ and the top fluid opening 112′, whereinthe sealing ring 124′ is adapted to seal the edge between spout member121′ and the top fluid opening 122′ while the spout member 121′ is inthe closed position as well as that the top fluid opening 112′ is closedby the spout member 121′, so as to prevent the liquid accommodatinginside the fluid compartment 111′ being oozed out from the edge betweenthe spout member 121′ and the top fluid opening 112′.

The body unit 11′ further comprises an inner wall 112′ and an outer wall114′ coaxially receiving the inner wall 112′ therewithin to form adouble wall structure, wherein the fluid compartment 111′ is formed bythe inner wall 112′, and the outer wall 114′ rotatably surrounds theinner wall 112′. Accordingly, the outer wall 114′ can provide heatinsulation to the items placed within the fluid compartment 111′. Inaddition, the outer wall 114′ may also play a decorative role, so as toincrease the aesthetics of the beverage bottle.

According to the preferred embodiment of the present invention, thesupporting frame 21′ is integrally formed at the inner wall 112′,wherein the mounting groove 210′ is integrally and longitudinallyindented on the inner wall 112′. The supporting frame 21′ further has analignment groove 2101′, which is a through slot, formed on the outerwall 114′ to align with the mounting groove 210′. In other words, thebottom wall 211′ of the supporting frame 21′ is formed on the inner wall112′ of the body unit 11′, so that while the edge portion of theportable electronic device D is mounted into the mounting groove 210′,the edge portion of the portable electronic device D is passed throughthe alignment groove 2101′ to insert into the mounting groove 210′. Itis worth mentioning that the outer wall 114′ can be rotated around theinner wall 112′ to misalign the alignment groove 2101′ with the mountinggroove 210′, such that the mounting groove 210′ can be enclosed by theouter wall 114′.

Preferably, the inner wall 112′ is made of a transparent materialpreparation, so that the mounting groove 210′ formed on the inner wall112′ is transparent, and the outer wall 114′ is made of an opaquematerial. The users can view the fluid compartment 111′ of the innerwall 112′ through the alignment groove 2101′. Thus, when the water isaccommodated inside the fluid compartment 111′, the users can freelyobserve the water level of the fluid compartment 111′ through thealignment groove 2101′.

Preferably, the outer wall 114′ comprises a plurality of water levelslots 1141′, wherein the water level slots 1141′ laterally extendedalong the sidewall of the outer wall 114′, so that the fluid compartment111′ can be seen through by the water level slot 1141′. Each of thewater level slots 1141′ represented a predetermined volume of liquidinside the fluid compartment 111′. Preferably, the specific numericalvalues can be labeled adjacent to the water level slot 1141′, so thatwhen the liquid level inside the fluid compartment 111′ reaches thewater level slot 1141′, the users can know the volume of the liquidinside the fluid compartment 111′ by the labeled specific numericalvalues nearby the water level slot 1141′.

Preferably, each of the water level slots 1141′ is a through slot and istransversely formed on the outer wall 114′ to intersect with thealignment groove 2101′, wherein the specific numerical values arelabeled at a particular side of the mounting groove 210′, so as toindicate the direction of the display interface of the portableelectronic device D placed within the mounting groove 210′, such thatthe display interface of the portable electronic device D is placedtoward the direction where the specific numerical values are labeled. Inother words, the display interface of the portable electronic device Dis tilted up.

Preferably, the inner wall 112′ and the outer wall 114′ are respectivelymade of by an injection molding. When the inner wall 112′ and the outerwall 114′ are contacted with each other, the inner wall 112′ and theouter wall 114′ can be connected with each other by an ultrasonicwelding. Alternatively, the outer wall 114′ can be detachably coupledwith the inner wall 112′, such that the inner wall 112′ can be made ofglass and the outer wall 114′ can be made of shock absorbing material toprotect the inner wall 112′. It is appreciated that the inner wall 112′and the outer wall 114′ can be affixed with each other or can bedetachably coupled with each other.

Referring to FIG. 15 of the drawings, a first alternative mode of theabove second preferred embodiment of the present invention isillustrated, wherein the supporting frame 21A′ is formed at the outerwall 114A′ of the body unit 11A′. The supporting frame 21A′ comprises abottom wall 211A′, a first sidewall 212A′ and a second sidewall 213A′,and the mounting groove 210A′ is formed between the bottom wall 211A′,the first sidewall 212A′ and the second sidewall 213A′. In other words,the first sidewall 212A′ and the second sidewall 213A′ are integrallyand outwardly extended to form the mounting groove 210A′ having acertain depth, so that the portable electronic device D can be stablysupported inside the mounting groove 210A′.

It is worth mentioning that, in the first alternative mode of the abovesecond preferred embodiment of the present invention, the inner wall113A′ is completely encircled by the outer wall 114A′, so as to providebetter thermal insulation to the fluid compartment 111A′.

Referring to FIG. 16 of the drawings, a second alternative mode of theabove second preferred embodiment of the present invention isillustrated, wherein the outer wall 114B′ has a mounting groove 210B′,wherein two sidewalls of the mounting slot 2101B′ are formed by thefirst sidewall 212B′ and the second sidewall 213B′ of the supportingframe 21B′, and the bottom wall 211B′ of the supporting frame 21B′ isformed by the outer circumferential surface of the inner wall 113B′. Themounting groove 210B′ is formed between the bottom wall 211B′, the firstsidewall 212B′ and the second sidewall 213B′.

Preferably, the first sidewall 212B′ and the second sidewall 213B′ areintegrally, radially, and outwardly extended from the outer wall 114B′to form the mounting groove 210B′ having a certain depth, so that theportable electronic device D can be stably supported inside the mountinggroove 210B′. The configuration of the mounting groove 210B′ can beformed as shown in FIGS. 13A to 13C.

Preferably, a cavity 115B′ are formed between the inner wall 113B′ andthe outer wall 114B′, wherein air or other substance can be filled intothe cavity 115B′. When the air is filled into the cavity 115B′, thefluid compartment 111B′ has a better thermal insulation due to that thethermal conductivity of the air is small. When other substances arefilled into the cavity 115B′, the liquid placed inside the fluidcompartment 111B′ can be rapidly cooled or heated. For example, a liquidcan be sealed into the cavity 115B′ and placed the beverage bottle intoa refrigerator, so that the liquid is maintained at a lower temperature.After that, when a user wants to immediately drink iced drinks, thebeverage can be poured into the fluid compartment 111B′, such that thelow temperature liquid inside the cavity 115B′ can rapidly cool thebeverage inside the fluid compartment 111B′, so as to quickly form theiced drinks.

It is worth mentioning that, in the second alternative mode of the abovementioned second preferred embodiment of the present invention, the usercan observe the fluid compartment 111B′ through the mounting groove210B′, so as to facilitate the user at any time to observe the conditionof the fluid compartment 111B′.

Referring to FIG. 17 of the drawings, a third alternative mode of theabove second preferred embodiment of the present invention isillustrated, wherein the mounting groove 210C′ is transversely formed atthe hand-held container 10C′. Preferably, the supporting frame 21C′ isextended from the outer wall of the body unit 11C′ to form the mountinggroove 210C′, wherein the supporting frame 21C′ comprises the bottomwall 211C′, a first sidewall 212C and a second sidewall 213C′. The firstsidewall 212C′ and the second sidewall 213C′ are respectively extendedfrom the outer wall of the body unit 11C′ to the bottom wall 211C′ alonga cross-section of the body unit 11C′. The edge portion of the portableelectronic device D is adapted to insert into the mounting groove 210C′.Preferably, two or more the mounting grooves 210C′ are parallelly formedat the outer wall of the body unit 11C′, wherein the mounting grooves210C′ are parallel with each other. In particular, each of the mountinggrooves 210C′ can be configured as shown in FIGS. 13A to 13C.Preferably, the configurations of the mounting grooves 210C′ aredifferent to provide different supporting orientations of the portableelectronic device D at the mounting grooves 210C′.

It is worth mentioning that while the portable electronic device D is inuse, the portable electronic device D will commonly generate a hugeamount of heat, so that the life span of the portable electronic devicewill be greatly reduced. The present invention is provided to solve thementioned problem. When the cool liquid, such as ice water, is containedin the fluid compartment 111′, 111A′, 111B′, and 111C′, the mountinggroove 210′, 210A′, 210B′, and 210C′ are maintained at a lowertemperature, so as to facilitate the heat dispersion of the portableelectronic device D.

Referring to FIG. 18 of the drawings, the hand-held container 10′further comprises an accessory mounting unit 23′ formed in a bottomportion of the hand-held container 10′ and a utility base 30′ beinginstalled at a bottom portion of the hand-held container 10′ by theaccessory mounting unit 23′, wherein the utility base 30′ may comprise aflash light, a portable audio device, a rechargeable power supply, andso on.

Preferably, the accessory mounting unit 23′ comprises a first magneticmember 231′ provided on the bottom surface of the hand-held container10′ and a second magnetic member 232′ provided on the utility base 30′,wherein the first magnetic member 231′ and the second magnetic member232′ are adapted to attach with each other by the magnetic attraction,so that the utility base 30′ can be detachably attached on the bottomportion of the hand-held container 10′ through the magnetic attractionbetween the first and second magnetic member 231′, 232′.

Referring to FIG. 19 of the drawings, a beverage bottle according to athird preferred of the present invention is illustrated, wherein thebeverage bottle comprises a hand-held container 10″ to store water orother items. The hand-held container 10″ further comprises an accessiblestation 20″, wherein the accessible station 20″ comprises a supportingframe 21′ formed on the hand-held container 10″ to stably supported atleast one portable electronic device D.

The portable electronic device D has at least one connecting terminal d.Most of the portable electronic device D has a power connector or USBdata interface, which can be used as the connecting terminal d.

The supporting frame 21″ comprises a connecting plug 215″ outwardly andradially extended from the hand-held container 10″, wherein theconnecting plug 215″ is adapted to insert into the connecting holes d ofthe portable electronic device D to fix the portable electronic device Don the hand-held container 10″. It is worth mentioning that most of theportable electronic device D has the same size of the connectingterminal d. In other words, when the hand-held container 10″ is placedat a horizontal orientation, the portable electronic device D issupported at a vertical orientation as shown in FIG. 19.

Preferably, the supporting frame 21″ is rotatably arranged on thehand-held container 10″, so that the connecting plug 215″ can be rotatedby rotating the supporting frame 21″, and then the portable electronicdevice D also can be rotated by the rotation of the supporting frame21″. Therefore, the user can selectively adjust the angle of theportable electronic device D via the rotation of the supporting frame21″.

It is worth mentioning that the supporting frame 21″ can be rotated andpivotally moved by a connecting member provided on the hand-heldcontainer 10″, so that the supporting frame 21″ can be rotated andpivotally moved with respect to the hand-held container 10″. Forexample, the supporting frame 21″ can be rotatably and pivotally movedwith respect to the hand-held container 10″ by a ball joint structureprovided on the hand-held container 10″, so that the supporting frame21″ not only rotates in the vertical direction, but also pivotally movesin the inclination direction, so the inclination angle of the portableelectronic device D can be adjusted.

The hand-held container 10″ further comprises at least one leg support24″ outwardly extended from the hand-held container 10″, and the legsupport 24″ is adapted to support the portable electronic device D, sothat the hand-held container 10″ can be stably place on a plane.

Preferably, the hand-held container 10″ is a cylindrical, and alongitudinal length of the hand-held container 10′ is larger than thelateral length thereof. The supporting frame 21″ is provided on thesidewall of the hand-held container 10″, and the connecting plug 215″ isoutwardly and radially extended from the sidewall of the hand-heldcontainer 10″ along the cross-sectional direction of the hand-heldcontainer 10″. In other words, the hand-held container 10″ can behorizontally placed when in use as well as that the portable electronicdevice D is mounted on the connecting plug 215″.

Preferably, the leg support 24″ is outwardly extended from on thesidewalls of the hand-held container 10″ along the cross-section of thehand-held container 10″ adapted to be securely supported the hand-heldcontainer 10″ placed along the transverse direction, so as to avoid thecylindrical shape hand-held container 10″ being rolled.

Preferably, the leg support 24″ comprises at least one front supportingleg 241″ and at least one rear supporting leg 242″, which are separatelylocated at two ends of the sidewall of the hand-held container 10″. Eachof the outer ends of the front and rear supporting legs 241″, 242″ is inthe same plane, so as to stably support the beverage bottle on the sameplane.

Referring to FIG. 20A of the drawings, a beverage bottle according to afourth preferred embodiment of the present invention is illustrated,wherein the beverage bottle comprises a hand-held container 10F.

The hand-held container 10F comprises a body unit 11F and a spout unit12F, wherein the body unit 11F defines a fluid compartment 111F adaptedto store water or other items, and the body unit 11F comprises a topfluid opening adapted to allow the fluid compartment 111F communicatingwith outside. In other words, the spout unit 12F is adapted to open andclose the fluid compartment 111F of the body unit 11F

Accordingly, the hand-held container 10F further comprises an accessiblestation 20F, wherein the accessible station 20F comprises a supportingframe 21F. The supporting frame 21F comprises a retaining arm 218Fextended from the spout unit 12F, wherein the retaining arm 218F isadapted to allow the portable electronic device D being seated thereon,so that the portable electronic device D can be stable supported by theretaining arm 218F and a surface of the spout unit 12F.

As shown in FIG. 20A, the spout unit 12F comprises a spout member 121F,a first movable cap 123F, and a second movable cap 125F, wherein thespout member 121F is adapted to open or close the top fluid opening. Thespout member 121F comprises a mouth piece 122F to communicate with thetop fluid opening, and also communicate with the fluid compartment 111F,so that the user may drink the water within the fluid compartment 111Fthrough the mouth piece 122F. The area of the mouth piece 122F issmaller than that of the top fluid opening, so as to prevent the waterinside the fluid compartment 111F being accidently spilled out from themouth piece 122F. When the users want to fill out the water into thefluid compartment 111F, it is convenient to fill out the water into thefluid compartment 111F through the top fluid opening, rather than themouth piece 122F. The first movable cap 123F is pivotally coupled at thespout member 121F to open or close the mouth piece 122F. The secondmovable cap 125F is pivotally coupled at the spout member 121F, so as tobe pivotally folded between an open position and a closed position. Whenthe second movable cap 125F is in the closed position, the first movablecap 123F is covered by the second movable cap 125F, so as to remain thefirst movable cap 123F in the closed position to form a double capstructure to prevent the water leakage from the mouth piece 122F. Inother words, when the second movable cap 125F is in the opened position,the first movable cap 123F can be opened.

Preferably, the retaining arm 218F is integrally extended from an innerwall of the second movable cap 125F close to the pivot edge of theretaining arm 218F, so that while the second movable cap 125F is in theopened position to expose the retaining arm 218F, the portableelectronic device D can be seated on the retaining arm 218F and can besupported by the second movable cap 125F.

Preferably, the second movable cap 125F can be switched between a firstopened position and a second opened position. That is to say, the secondmovable cap 125F can be maintained in a first opened position, and alsocan be held in the second opened position. In other words, differentangles, i.e. the pivotally folding angle, of the second movable cap 125Fwill selected adjusted with respect to the spout member 121F through thepivotal movement of the second movable cap 125F in the first openedposition or in the second opened position.

As shown in FIG. 20A, when the beverage bottle is horizontally placed ona plane, and the second movable cap 125F is in the first openedposition, and the first movable cap 123F is in the opened position, sothat the pivotally folding angle of the second movable cap 125F islarger than 90 degrees. In other words, the portable electronic device Dcan be stably mounted between the retaining arm 218F and an inner wallof the second movable cap 125F, so as to allow the user being easilyobserve the display interface of the portable electronic device D.

As shown in FIG. 20B, when the beverage bottle is vertically placed on aplane, and the second movable cap 125F is in the second opened position,and the first movable cap 123F is in the closed position, so that thepivotally folding angle of the second movable cap 125F should not belarger than 90 degrees. In other words, the portable electronic device Dcan be stably mounted between the retaining arm 218F and an inner wallof the second movable cap 125F, so as to allow the user being easilyobserve the display interface of the portable electronic device D.

The hand-held container 10F further comprises at least one leg support24F outwardly extended from the hand-held container 10F, and the legsupport 24F is adapted to support the portable electronic device D, sothat the hand-held container 10F can be stably place on a plane.Accordingly, the front supporting legs 241F are spacedly formed at afree end of the second movable cap 125F.

Preferably, the hand-held container 10F is a cylindrical, and the legsupport 24F is outwardly extended from a curved sidewall of thehand-held container 10F, so as to prevent that the hand-held container Fis rolling around while the curved sidewall of the hand-held containeris placed on the plane.

Referring to FIG. 21 of the drawings, an alternative mode of a beveragebottle according to the above fourth preferred embodiment of the presentinvention is illustrated, wherein the retaining arm 218G is outwardlyand upwardly extended from an outer wall of the spout unit 12F, so thatwhen the beverage bottle is horizontally placed on a plane, the portableelectronic device D is supported between the retaining arm 218G and theouter wall of the spout unit 12F. Preferably, the retaining arm 218G hasa hook shape formed at the spout unit 12F, such as the second movablecap 125F thereof.

Referring to FIG. 22 of the drawings, a beverage bottle according to afifth preferred embodiment of the present invention is illustrated,wherein the beverage bottle comprises a hand-held container 10H. Thehand-held container 10H comprises an accessible station 20H, wherein theaccessible station 20H comprises a supporting frame 21H to stablysupport at least one portable electronic device D.

The hand-held container 10H comprises a fluid compartment adapted tostore water or other items.

The supporting frame 21H is formed on the hand-held container 10H,wherein the supporting frame 21H is inwardly extended from an outer wallof the hand-held container 10H to form a supporting seat 210H.

The supporting frame 21H comprises a bottom wall 211H and a backsupporting wall 212H, wherein the back supporting wall 212H and thebottom wall 211H are integrally and inwardly indented on an outer wallof the body unit 11H, so that the supporting seat 210H is formed on theouter surface of the body unit 11H and is defined within the bottom wall211H and the back supporting wall 212H. When the portable electronicdevice D is inserted into the supporting seat 210H, the bottom wall 211Hof the supporting frame 21H is adapted to support a bottom wall of theportable electronic device D, and a rear wall of the portable electronicdevice D are supported by the back supporting wall 212H, so as to allowthe display interface of the portable electronic device D being exposedoutside.

The hand-held container 10H further comprises at least one leg support24H outwardly extended from the hand-held container 10H, and the legsupport 24H is adapted to support the portable electronic device D, sothat the hand-held container 10H can be stably place on a plane.

Preferably, the hand-held container 10H is a cylindrical, and thesupporting frame 21H is outwardly extended from a curved sidewall of thehand-held container 10H. The leg support 24H is outwardly extended fromthe sidewall of the hand-held container 10H along the cross-sectiondirection of the hand-held container 10H, so that the hand-heldcontainer 10H can be stably supported on a plane while the hand-heldcontainer 10H is transversely placed on the plane.

The leg support 24H comprises at least one front supporting leg 241H andat least one rear supporting leg 242H, which are separately located attwo ends of the sidewall of the hand-held container 10H. Each of theouter ends of the front and rear supporting legs 241H, 242H is in thesame plane, so as to stably support the beverage bottle on the sameplane.

Preferably, the bottom wall 211H of the supporting frame 21H is upwardlyand outwardly inclined arranged with respect to a plane where the frontand rear supporting legs 241H, 242H are placed on, wherein the firstsidewall 212H is perpendicular to the bottom wall 211H of the supportingframe 21H, so that while the hand-held container 10H is placed on theplane via the leg support 24H and the portable electronic device isplaced inside the mounting groove 210H, the portable electronic deviceis able to rearwardly and inclinedly arranged, so as to enable thedisplay interface of the portable electronic device being observed bythe viewer in a more comfortable angle.

It is worth mentioning that the above embodiments and their alternativesare interchangeable, such that the supporting frame can be integratedwith one of the body unit and the spout unit for stably supporting theportable electronic device at a predetermined angle. In addition, theleg support according to the embodiments and their alternatives isprovided at the hand-held container and located opposite to thesupporting frame to stably support the hand-held container at either thevertical orientation or horizontal orientation so as to stably supportthe portable electronic device. It is worth mentioning that two or moresupporting can be integrated with the body unit and the spout unit, suchthat the user is able to selectively hold the portable electronic deviceat different locations of the hand-held container. Likewise, the utilitybase can be detachably coupled to the body unit of any one of the abovementioned embodiments and their alternatives via the accessory mountingunit.

One skilled in the art will understand that the embodiment of thepresent invention as shown in the drawings and described above isexemplary only and not intended to be limiting.

It will thus be seen that the objects of the present invention have beenfully and effectively accomplished. The embodiments have been shown anddescribed for the purposes of illustrating the functional and structuralprinciples of the present invention and is subject to change withoutdeparture from such principles. Therefore, this invention includes allmodifications encompassed within the spirit and scope of the followingclaims.

What is claimed is:
 1. A beverage bottle for a portable electronicdevice, comprising: a hand-held container which comprises a body unithaving a fluid compartment for containing beverage therein, and a spoutunit, having a mouth piece, detachably coupled at said body unit toenclose said fluid compartment; and an accessible station whichcomprises a supporting frame integrated with one of said body unit andsaid spout unit of said hand-held container for stably supporting theportable electronic device at a predetermined angle.
 2. The beveragebottle, as recited in claim 1, wherein said supporting frame has amounting groove indented on an outer surface of said body unit forreceiving an edge portion of the portable electronic device, wherein awidth of said mounting groove is larger than a thickness of the portableelectronic device.
 3. The beverage bottle, as recited in claim 2,wherein said mounting groove defines a first sidewall, a secondsidewall, and a bottom wall, wherein said first sidewall is inclinedlyextended from said bottom wall for supporting the edge portion of theportable electronic device.
 4. The beverage bottle, as recited in claim3, wherein an angle between said first sidewall and said bottom wall isan obtuse angle.
 5. The beverage bottle, as recited in claim 3, whereinan angle between said first sidewall and said bottom wall is an acuteangle.
 6. The beverage bottle, as recited in claim 2, wherein saidmounting groove is longitudinally extended along said outer surface ofsaid body unit.
 7. The beverage bottle, as recited in claim 2, whereinsaid body unit comprises an inner wall defining said fluid compartmenttherein, and an outer wall coaxially receiving said inner wall to form adouble wall structure, wherein said mounting groove is integrallyindented on said inner wall.
 8. The beverage bottle, as recited in claim7, wherein said supporting frame further has an elongated throughalignment groove formed on said outer wall and aligned with saidmounting groove.
 9. The beverage bottle, as recited in claim 8, whereinsaid outer wall further has a plurality of through water level slotsspacedly extended therein to intersect with said alignment groove. 10.The beverage bottle, as recited in claim 2, wherein said body unitcomprises an inner wall defining said fluid compartment therein, and anouter wall coaxially receiving said inner wall to form a double wallstructure, wherein said mounting groove is integrally indented on saidouter wall.
 11. The beverage bottle, as recited in claim 2, wherein twoor more of said mounting groove are parallelly and transversely extendedalong said outer surface of said body unit.
 12. The beverage bottle, asrecited in claim 1, wherein said supporting frame comprises a connectingplug outwardly protruded from an outer surface of said body unit fordetachably coupling with a connecting terminal of the portableelectronic device so as to support the portable electronic device. 13.The beverage bottle, as recited in claim 12, wherein said connectingplug are rotatably coupled at said outer surface of said body unit forselectively adjust an angle of the portable electronic device.
 14. Thebeverage bottle, as recited in claim 1, wherein said supporting framecomprises a retaining arm integrally extended from said spout unit forallowing the portable electronic device being seated thereon so as tosupport the portable electronic device on said spout unit.
 15. Thebeverage bottle, as recited in claim 14, wherein said spout unitcomprises a spout member defining said mouth piece thereat, a firstmovable cap pivotally coupled at said spout member to selectively openand close said mouth piece, and a second movable cap pivotally coupledat said spout member to selectively to cover on said first movable cap,wherein said retaining arm is integrally extended from an inner wall ofsaid second movable cap, such that when said second movable cap ispivotally folded away from said first movable cap, said retaining arm isexposed for supporting the portable electronic device.
 16. The beveragebottle, as recited in claim 14, wherein said retaining arm has a hookshape integrally formed at an outer wall of said spout unit forsupporting the portable electronic device on said spout unit.
 17. Thebeverage bottle, as recited in claim 1, wherein said supporting framehas a supporting seat indented on an outer surface of said body unit todefine a bottom wall and a back supporting wall, wherein said supportingseat is arranged for supporting the portable electronic device at aposition that a bottom wall of the portable electronic device issupported on said bottom wall of said supporting seat while a rear wallof the portable electronic device is supported by said back supportingwall of said supporting seat.
 18. The beverage bottle, as recited inclaim 1, further comprising a leg support provided at said hand-heldcontainer and located opposite to said supporting frame.
 19. Thebeverage bottle, as recited in claim 18, wherein said leg supportcomprises a front supporting arm integrally extended from said spoutunit and a rear supporting arm integrally extended from said body unit.20. The beverage bottle, as recited in claim 1, further comprising autility base detachably coupled at a bottom surface of said body unit,wherein said utility base comprises at least one of a flash light, aportable audio device, and a rechargeable power supply.
 21. The beveragebottle, as recited in claim 1, further comprising an accessory mountingunit which comprises a first magnetic member provided at said bottomsurface of said body unit and a second magnetic member provided on saidutility base, such that said second magnetic member is magneticallyattracted to said first magnetic member to detachably couple saidutility base at said body unit.